Combining Representational Domains for Computational Creativity: Unterschied zwischen den Versionen
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== Reference == | == Reference == | ||
| − | Agnese Augello, Ignazio Infantino, Giovanni Pilato, Riccardo Rizzo and Filippo Vella: [[Combining Representational Domains for Computational Creativity]]. In: [[Computational Creativity 2014 ICCC 2014]]. | + | Agnese Augello, Ignazio Infantino, Giovanni Pilato, Riccardo Rizzo and Filippo Vella: [[Combining Representational Domains for Computational Creativity]]. In: [[Computational Creativity 2014 ICCC 2014]], 272-275. |
== DOI == | == DOI == | ||
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== Bibtex == | == Bibtex == | ||
| + | @inproceedings{ | ||
| + | author = {Agnese Augello, Ignazio Infantino, Giovanni Pilato, Riccardo Rizzo and Filippo Vella}, | ||
| + | title = {Combining Representational Domains for Computational Creativity}, | ||
| + | booktitle = {Proceedings of the Sixth International Conference on Computational Creativity}, | ||
| + | series = {ICCC2014}, | ||
| + | year = {2014}, | ||
| + | month = {Jun}, | ||
| + | location = {Ljubljana, Slovenia}, | ||
| + | pages = {272-275}, | ||
| + | url = {http://computationalcreativity.net/iccc2014/wp-content/uploads/2014/06//13.2_Augello.pdf, http://de.evo-art.org/index.php?title=Combining_Representational_Domains_for_Computational_Creativity }, | ||
| + | publisher = {International Association for Computational Creativity}, | ||
| + | keywords = {computational, creativity}, | ||
| + | } | ||
== Used References == | == Used References == | ||
Version vom 12. November 2015, 00:07 Uhr
Inhaltsverzeichnis
Reference
Agnese Augello, Ignazio Infantino, Giovanni Pilato, Riccardo Rizzo and Filippo Vella: Combining Representational Domains for Computational Creativity. In: Computational Creativity 2014 ICCC 2014, 272-275.
DOI
Abstract
The paper describes a combinatorial creativity module embedded in a cognitive architecture. The proposed module is based on the focus of attention model pro- posed by and is implemented using Self Organising Map (SOM) neural networks.
Extended Abstract
Bibtex
@inproceedings{
author = {Agnese Augello, Ignazio Infantino, Giovanni Pilato, Riccardo Rizzo and Filippo Vella},
title = {Combining Representational Domains for Computational Creativity},
booktitle = {Proceedings of the Sixth International Conference on Computational Creativity},
series = {ICCC2014},
year = {2014},
month = {Jun},
location = {Ljubljana, Slovenia},
pages = {272-275},
url = {http://computationalcreativity.net/iccc2014/wp-content/uploads/2014/06//13.2_Augello.pdf, http://de.evo-art.org/index.php?title=Combining_Representational_Domains_for_Computational_Creativity },
publisher = {International Association for Computational Creativity},
keywords = {computational, creativity},
}
Used References
Augello, A.; Infantino, I.; Pilato, G.; Rizzo, R.; and Vella, F. 2013a. Binding representational spaces of colors and emotions for creativity. Biologically Inspired Cognitive Ar- chitectures 5:64–71.
Augello, A.; Infantino, I.; Pilato, G.; Rizzo, R.; and Vella, F. 2013b. Introducing a creative process on a cognitive architecture. Biologically Inspired Cognitive Architectures 6:131–139.
Boden, M. 2009. Computer Models of Creativity. AI Mag- azine 23–34.
Bogart, B., and Pasquier, P. 2013. Context Machines: A Se- ries of Situated and Self-Organising Artworks. Proceedings of the fourth conference on Creativity & cognition - C&C ’02 46(2):114–122.
Colton, S., and Wiggins, G. A. 2012. Computational cre- ativity: The final frontier? In ECAI’12, 21–26.
Gabora, L. 2002. Cognitive mechanisms underlying the creative process. Proceedings of the fourth conference on Creativity & cognition - C&C ’02 126–133.
G ̈ardenfors, P. 2004. Conceptual spaces: The geometry of thought. The MIT Press.
Heilman, K. M.; Nadeau, S. E.; and Beversdorf, D. O. 2003. Creative innovation: possible brain mechanisms. Neurocase 9(5):369–379.
Jordanous, A. 2012. A standardised procedure for evalu- ating creative systems: Computational creativity evaluation based on what it is to be creative. Cognitive Computation 4(3):246–279.
Kohonen, T.; Schroeder, M. R.; and Huang, T. S., eds. 2001. Self-Organizing Maps. Secaucus, NJ, USA: Springer-Verlag New York, Inc., 3rd edition.
Morse, A. F.; de Greeff, J.; Belpeame, T.; and Cangelosi, A. 2010. Epigenetic Robotics Architecture (ERA). IEEE Trans. on Autonomous Mental Development 2(4):325–339.
Pease, A., and Colton, S. 2011. Computational creativity theory: Inspirations behind the face and the idea models. In ICCC 2011.
Rizzo, R. 2013. A new training method for large self orga- nizing maps. Neural Processing Letters 37(3):263–275.
Thagard, P., and Stewart, T. C. 2011. The aha! expe- rience: Creativity through emergent binding in neural net- works. Cognitive science 35(1):1–33.
Links
Full Text
http://computationalcreativity.net/iccc2014/wp-content/uploads/2014/06//13.2_Augello.pdf
